Engineer & Assistant Project Manager
Supports and manages transmission, distribution, and substation engineering projects, combining technical execution with organized project delivery.
01 — Systems
Engineer and Assistant Project Manager working across power infrastructure, computational modeling, project delivery, and institutional leadership — with a habit of turning eighty-equation problems into decisions people can act on.
02 — Capabilities
A working range that spans the grid, the lab, and the project plan — the connective tissue most engineering problems actually need.
Experience
Supports and manages transmission, distribution, and substation engineering projects, combining technical execution with organized project delivery.
Education
Minors in Chemistry, Materials Science Engineering, and Civil Engineering.
Research
Improved a computational cardiovascular system model designed to capture differences among individuals and support individualized treatment analysis. The underlying mathematical model contained more than 80 equations.
Ran density functional theory simulations examining reconstruction and magnetic moment changes in defective graphene, resulting in published second-author research.
Leadership
Represented an undergraduate community of more than 20,000 students and brought student perspectives into institutional decision making.
Selected recognition
Formal recognition from the University of Delaware Board of Trustees for service, advocacy, and student leadership.
Chemical Engineering Industrial Sponsors Senior Student Award.
Myrick Family Scholarship.
YoUDee Outstanding Leader Award.
College of Engineering Alumni Association Award.
03 — Selected work
Three threads — the grid, the body, and the lattice — that show how the same analytical method travels across very different systems.
Engineering execution paired with assistant project management: supporting the design packages while keeping scope, schedule, and stakeholders aligned so power projects move from drawing to delivery.
Improved a computational model of the cardiovascular system built to capture individual differences and support individualized treatment analysis — a control problem expressed in more than eighty coupled equations.
Density functional theory simulations examining how reconstruction and magnetic moments shift in defective graphene under strain — work that became published, peer-reviewed research.

A broader definition of engineering
Julia’s work connects infrastructure, modeling, project leadership, and advocacy. Each discipline asks the same central question: how do we build systems that work better for people?
See the person beyond the résumé.
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